Burrow structural charactersitcs and microhabitat use of the Turpan wonder gecko Teratoscincus roborowskii (Gekkonidae) were studied between April and September of 2013 in the Turpan Eremophytes Botanic Garden, in t...Burrow structural charactersitcs and microhabitat use of the Turpan wonder gecko Teratoscincus roborowskii (Gekkonidae) were studied between April and September of 2013 in the Turpan Eremophytes Botanic Garden, in the Turpan Depression of Western China. Burrow depth, entrance orientation, entrance height and width were observed. We assessed microhabitat selection and noted differences in microhabitat use among males, females, and juveniles. The magnitude of selection was measured using Jacobs' index of selectivity. Entrance height and width of the burrows of adults were significantly larger than those of juveniles, but the difference in burrow depth was not significant. The directional orientation of the burrow entrance showed a preference for the north-northeast and south-southeast, which were likely influenced by local prevailing winds and sunlight. Both the adult and juvenile geckos prefer to construct their burrows in sandy soil within a layer of loose soil whose thickness is greater than 30 cm. A majority of the burrows were located within 20 m of the nearest plant. Nearly half (48%) of the entrances of juveniles were located within 5 m of the nearest vegetation, significantly different from those of the adults. Results showed that the Turpan wonder gecko did not utilize microhabitats according to their availability, but rather that it preferred rnicrohabitats which contained dead wood or the caper bush. Our results suggested that burrow characteristics and microhabitat selection were important factors in T. roborowskii adaptation to harsh and arid desert habitats.展开更多
The reproductive strategy and cycle of Phrynocephalus grumgrzimailoi were studied at a locality close to Urumqi City, Xinjiang, China. The hatchlings of P. grumgrzimailoi need at least two years to reach sexual maturi...The reproductive strategy and cycle of Phrynocephalus grumgrzimailoi were studied at a locality close to Urumqi City, Xinjiang, China. The hatchlings of P. grumgrzimailoi need at least two years to reach sexual maturity, with the smallest mature male and female measured 48.02 mm and 47.01 mm snout-vent length(SVL), respectively. Adult females produce a single clutch per breeding season, with the clutch size ranging from 1 to 5. The clutch size and mass are significantly correlated with female SVL. There is no correlation of mean egg size with clutch size and relative fecundity in P. grumgrzimailoi, suggesting that the trade-off is absent between mean egg size and number. Females increase reproductive output mainly through increasing egg numbers. The copulation period lasts from April to June. Females begin vitellogenesis in April and lay eggs from May to July. Our results suggest that toad-headed lizards tend to select different reproductive strategies to adapt themselves to their arid or semi-arid habitats.展开更多
Efficient and selective extraction of uranium(U(VI))from seawater is essential for sustainable nuclear power production.This study reports a novel adsorbent zeolitic imidazolate framework(ZIF)-67@SiO_(2)-A/polyacrylam...Efficient and selective extraction of uranium(U(VI))from seawater is essential for sustainable nuclear power production.This study reports a novel adsorbent zeolitic imidazolate framework(ZIF)-67@SiO_(2)-A/polyacrylamide(PAM)which was synthesized by grafting the core–shell metal–organic frameworks(MOFs)-based nanostructures coated with the 3-aminopropyl triethoxysilane(APTES)functionalized SiO_(2)(SiO_(2)-A)onto PAM hydrogel.The SiO_(2) shell was grown on the surface of MOF,which improved the acid-base resistance of MOF.The introduction of ZIF-67@SiO_(2)-A enhances the specific surface area and adsorption efficiency of the PAM.The ZIF-67@SiO_(2)-A/PAM shows remarkable adsorption capacity,fast adsorption kinetics,and good reusability for uranium.It has excellent adsorption property(6.33 mg·g^(-1),30 d)in natural seawater.The X-ray photoelectron spectroscopy(XPS),Fourier transform infrared(FTIR),energy dispersive spectroscopy(EDS)mappings,and density functional theory reveal that the coordination by N and O in ZIF-67@SiO_(2)-A/PAM with uranium is the main mechanism of uranium adsorption.Thus,ZIF-67@SiO_(2)-A/PAM has great potential to capture uranium from natural seawater.展开更多
Efficient capture of uranium(VI)(U(VI))from seawater is of great significance to the sustainable development of nuclear energy and environmental protection,which is also a serious challenge at present.In this study,ho...Efficient capture of uranium(VI)(U(VI))from seawater is of great significance to the sustainable development of nuclear energy and environmental protection,which is also a serious challenge at present.In this study,hollow Zn/Co zeolitic imidazolate framework(H-ZIF)was decorated on polyacrylamide/sodium alginate(PAM/SA)hydrogel by chelating and covalently crosslinking,and a new type of PAM/SA/H-ZIF hydrogel was synthesized.The combination of PAM/SA and H-ZIF gives PAM/SA/H-ZIF hydrogel excellent mechanical properties,good stability,and abundant surface functional groups,which is beneficial to improving the adsorption properties.The extraction amount of U(VI)by PAM/SA/H-ZIF is 171.14 mg·g^(-1)at C_(0)=99.52 mg·L^(-1)and pH=5.0.The adsorption equilibrium is reached in 120 min and the adsorption process fits well with Langmuir isotherm model and pseudo-second-order rate equation.The PAM/SA/H-ZIF also showed good recyclability and stability after 10 cycles of adsorption-desorption.More importantly,the rate of uranium adsorption is 0.196 mg·g^(-1)·day^(-1)after 30 days,which implies that the PAM/SA/H-ZIF could serve as a potential adsorbent for the development of uranium capture from seawater.展开更多
基金funded by the National Natural Science Foundation of China(31260511,31660613)
文摘Burrow structural charactersitcs and microhabitat use of the Turpan wonder gecko Teratoscincus roborowskii (Gekkonidae) were studied between April and September of 2013 in the Turpan Eremophytes Botanic Garden, in the Turpan Depression of Western China. Burrow depth, entrance orientation, entrance height and width were observed. We assessed microhabitat selection and noted differences in microhabitat use among males, females, and juveniles. The magnitude of selection was measured using Jacobs' index of selectivity. Entrance height and width of the burrows of adults were significantly larger than those of juveniles, but the difference in burrow depth was not significant. The directional orientation of the burrow entrance showed a preference for the north-northeast and south-southeast, which were likely influenced by local prevailing winds and sunlight. Both the adult and juvenile geckos prefer to construct their burrows in sandy soil within a layer of loose soil whose thickness is greater than 30 cm. A majority of the burrows were located within 20 m of the nearest plant. Nearly half (48%) of the entrances of juveniles were located within 5 m of the nearest vegetation, significantly different from those of the adults. Results showed that the Turpan wonder gecko did not utilize microhabitats according to their availability, but rather that it preferred rnicrohabitats which contained dead wood or the caper bush. Our results suggested that burrow characteristics and microhabitat selection were important factors in T. roborowskii adaptation to harsh and arid desert habitats.
基金funded by the National Natural Science Foundation of China(NSFC3077026431200511)the Science Supporting Project of the Ministry of Science and Technology of China(2008BAC39B04)
文摘The reproductive strategy and cycle of Phrynocephalus grumgrzimailoi were studied at a locality close to Urumqi City, Xinjiang, China. The hatchlings of P. grumgrzimailoi need at least two years to reach sexual maturity, with the smallest mature male and female measured 48.02 mm and 47.01 mm snout-vent length(SVL), respectively. Adult females produce a single clutch per breeding season, with the clutch size ranging from 1 to 5. The clutch size and mass are significantly correlated with female SVL. There is no correlation of mean egg size with clutch size and relative fecundity in P. grumgrzimailoi, suggesting that the trade-off is absent between mean egg size and number. Females increase reproductive output mainly through increasing egg numbers. The copulation period lasts from April to June. Females begin vitellogenesis in April and lay eggs from May to July. Our results suggest that toad-headed lizards tend to select different reproductive strategies to adapt themselves to their arid or semi-arid habitats.
基金supported by the National Key R&D Program of China(No.2019YFA0706802)the National Natural Science Foundation of China(No.52002356 and U20A20141)+1 种基金China Postdoctoral Science Foundation(No.2023M731020)Project for Young Scientists in Basic Research(No.YSBR-039).
文摘Efficient and selective extraction of uranium(U(VI))from seawater is essential for sustainable nuclear power production.This study reports a novel adsorbent zeolitic imidazolate framework(ZIF)-67@SiO_(2)-A/polyacrylamide(PAM)which was synthesized by grafting the core–shell metal–organic frameworks(MOFs)-based nanostructures coated with the 3-aminopropyl triethoxysilane(APTES)functionalized SiO_(2)(SiO_(2)-A)onto PAM hydrogel.The SiO_(2) shell was grown on the surface of MOF,which improved the acid-base resistance of MOF.The introduction of ZIF-67@SiO_(2)-A enhances the specific surface area and adsorption efficiency of the PAM.The ZIF-67@SiO_(2)-A/PAM shows remarkable adsorption capacity,fast adsorption kinetics,and good reusability for uranium.It has excellent adsorption property(6.33 mg·g^(-1),30 d)in natural seawater.The X-ray photoelectron spectroscopy(XPS),Fourier transform infrared(FTIR),energy dispersive spectroscopy(EDS)mappings,and density functional theory reveal that the coordination by N and O in ZIF-67@SiO_(2)-A/PAM with uranium is the main mechanism of uranium adsorption.Thus,ZIF-67@SiO_(2)-A/PAM has great potential to capture uranium from natural seawater.
基金This work was supported by the National Natural Science Foundation of China(Nos.52002356 and U20A20141)the National Key Research and Development Program of China(No.2019YFA0706802)+1 种基金the China Postdoctoral Science Foundation(No.2020M672269)the Project for Young Scientists in Basic Research(No.YSBR-039).
文摘Efficient capture of uranium(VI)(U(VI))from seawater is of great significance to the sustainable development of nuclear energy and environmental protection,which is also a serious challenge at present.In this study,hollow Zn/Co zeolitic imidazolate framework(H-ZIF)was decorated on polyacrylamide/sodium alginate(PAM/SA)hydrogel by chelating and covalently crosslinking,and a new type of PAM/SA/H-ZIF hydrogel was synthesized.The combination of PAM/SA and H-ZIF gives PAM/SA/H-ZIF hydrogel excellent mechanical properties,good stability,and abundant surface functional groups,which is beneficial to improving the adsorption properties.The extraction amount of U(VI)by PAM/SA/H-ZIF is 171.14 mg·g^(-1)at C_(0)=99.52 mg·L^(-1)and pH=5.0.The adsorption equilibrium is reached in 120 min and the adsorption process fits well with Langmuir isotherm model and pseudo-second-order rate equation.The PAM/SA/H-ZIF also showed good recyclability and stability after 10 cycles of adsorption-desorption.More importantly,the rate of uranium adsorption is 0.196 mg·g^(-1)·day^(-1)after 30 days,which implies that the PAM/SA/H-ZIF could serve as a potential adsorbent for the development of uranium capture from seawater.
